Organelle Genome Characteristics and Phylogenetic Analysis of a Warm-Season Turfgrass Eremochloa ophiuroides (Poaceae).
Biology (Basel), 2025/8/01;14(8)
Zhao J[1], Xiong Y[2], Xu M[1], Gou W[3], Yang T[4], Xiong Y[1], Dong Z[1], Pan L[5], Sha L[1], Luo H[6], Ma X[1]
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PMID: 40906164DOI: 10.3390/biology14080975
Abstract
Plant mitochondrial genomes are characterized by their complex compositions and structures, large genomes, rapid recombination and evolution rates, and frequent intracellular gene transfer events. Centipedegrass, known as "Chinese turfgrass", is a warm-season turfgrass that exhibits excellent tolerance to both biotic and abiotic stresses. The chloroplast genome, with 139,107 bp, and the mitochondrial genome, with 564,432 bp, were both assembled into a single circular structure. We identified 44 gene transfer events between the chloroplast and mitochondrial genomes. The mitochondrial gene cox1 could serve as a marker for distinguishing accessions found at different altitudes. The unique features of the centipedegrass mitochondrial genome, coupled with the comparative genomic analysis of both chloroplast and mitochondrial genomes, have the potential to enrich the Poaceae database and provide crucial perspectives on plant evolution, energy metabolism, and responses to environmental conditions. The markers developed could facilitate the analysis of the genetic diversity of centipedegrass.
Keywords: centipedegrass; gene transfer events; mitochondrial marker; organelle genome
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